Molecular Metabolism (Dec 2021)

Cardiac-derived TGF-β1 confers resistance to diet-induced obesity through the regulation of adipocyte size and function

  • Jacob Z. Longenecker,
  • Jennifer M. Petrosino,
  • Colton R. Martens,
  • Scott A. Hinger,
  • Charlotte J. Royer,
  • Lisa E. Dorn,
  • Daniel A. Branch,
  • Joan Serrano,
  • Kristin I. Stanford,
  • George A. Kyriazis,
  • Kedryn K. Baskin,
  • Federica Accornero

Journal volume & issue
Vol. 54
p. 101343

Abstract

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Regulation of organismal homeostasis in response to nutrient availability is a vital physiological process that involves inter-organ communication. Understanding the mechanisms controlling systemic cross-talk for the maintenance of metabolic health is critical to counteract diet-induced obesity. Here, we show that cardiac-derived transforming growth factor beta 1 (TGF-β1) protects against weight gain and glucose intolerance in mice subjected to high-fat diet. Secretion of TGF-β1 by cardiomyocytes correlates with the bioavailability of this factor in circulation. TGF-β1 prevents adipose tissue inflammation independent of body mass and glucose metabolism phenotypes, indicating protection from adipocyte dysfunction-driven immune cell recruitment. TGF-β1 alters the gene expression programs in white adipocytes, favoring their fatty acid oxidation and consequently increasing their mitochondrial oxygen consumption rates. Ultimately, subcutaneous and visceral white adipose tissue from cadiac-specific TGF-β1 transgenic mice fail to undergo cellular hypertrophy, leading to reduced overall adiposity during high-fat feeding. Thus, TGF-β1 is a critical mediator of heart-fat communication for the regulation of systemic metabolism.

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